Purpose: Profiling histone posttranslational modifications (PTMs) in clinical samples holds great potential for the identification of epigenetic biomarkers and the discovery of novel epigenetic targets. MS-based approaches to analyze histone PTMs in clinical samples usually rely on SDS-PAGE separation following histone enrichment in order to eliminate detergents and further isolate histones. However, this limits the digestions options and hence the modification coverage.
Experimental design and results: The aim of this study is the implementation of a procedure involving acetone protein precipitation followed by histone enrichment through a C18 StageTip column to obtain histone preparations suitable for various in-solution digestion protocols. Among them, the Arg-C digestion, which allows profiling histone H4 modifications, and the Prop-PIC method, which improves the detection of short and hydrophilic peptides, are tested. This approach is validated on different types of samples, including formalin-fixed paraffin-embedded pathology tissues, and employed to profile histone H4 modifications in cancer samples and normal tissues, identifying previously reported differences, as well as novel ones.
Conclusions and clinical relevance: This protocol widens the number of applications available in the toolbox of clinical epigenomics, allowing the investigation of a larger spectrum of histone marks in patient samples.
Keywords: epigenetic mark; histone posttranslational modifications; mass spectrometry; proteomics; reversed-phase chromatography.
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